Laboratory of Predictive Genetics and Multicellular Systems, CMPG, KU Leuven, Leuven, Belgium.
Laboratory of Genetics and Genomics, CMPG, KU Leuven, Leuven, Belgium.
Mol Biol Evol. 2020 Oct 1;37(10):2989-3002. doi: 10.1093/molbev/msaa172.
Loss of gene function is common throughout evolution, even though it often leads to reduced fitness. In this study, we systematically evaluated how an organism adapts after deleting genes that are important for growth under oxidative stress. By evolving, sequencing, and phenotyping over 200 yeast lineages, we found that gene loss can enhance an organism's capacity to evolve and adapt. Although gene loss often led to an immediate decrease in fitness, many mutants rapidly acquired suppressor mutations that restored fitness. Depending on the strain's genotype, some ultimately even attained higher fitness levels than similarly adapted wild-type cells. Further, cells with deletions in different modules of the genetic network followed distinct and predictable mutational trajectories. Finally, losing highly connected genes increased evolvability by facilitating the emergence of a more diverse array of phenotypes after adaptation. Together, our findings show that loss of specific parts of a genetic network can facilitate adaptation by opening alternative evolutionary paths.
基因失活在整个进化过程中很常见,尽管这通常会导致适应度降低。在这项研究中,我们系统地评估了在删除对氧化应激下生长至关重要的基因后,生物体如何适应。通过进化、测序和表型分析 200 多个酵母谱系,我们发现基因失活可以增强生物体的进化和适应能力。尽管基因失活通常会立即导致适应度降低,但许多突变体迅速获得了恢复适应度的抑制突变。根据菌株的基因型,一些最终甚至获得了比类似适应的野生型细胞更高的适应度水平。此外,在遗传网络的不同模块中缺失的细胞遵循不同的、可预测的突变轨迹。最后,失去高度连接的基因通过在适应后促进出现更多不同的表型,从而提高了可进化性。总之,我们的研究结果表明,遗传网络特定部分的缺失可以通过开辟替代的进化途径来促进适应。
